A cover for memory sockets of a computer memory module includes a face panel spaced away from the memory sockets. The cover is held in place via latches associated with the memory sockets. Tabs are spaced along opposite sides of the cover to define openings for the memory sockets. members span between opposite pairs of tabs to define air passageways underneath the cover. Each member resides between an adjacent pair of memory sockets.
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8. A cover for a plurality of computer memory sockets, each of the plurality of computer memory sockets including a memory card slot to receive a memory card and a memory card latch to retain the memory card, the cover comprising:
a panel portion to cover the memory card slots; and
a side portion extending generally perpendicular from the panel portion and including a ledge to be retained by one of the memory card latches, wherein the side portion rests upon a face portion of one of the computer memory sockets if the ledge is retained by one of the memory card latches.
1. A particulate management system for a computer memory module including a plurality of adjacent memory sockets that are each configured to receive a memory card within a slot and to retain the memory card via a latch, the system comprising:
a cover to cover the slots and to be retained by at least one of the latches, the cover including (i) a face panel and (ii) a locator, depending from the face panel, to locate the cover relative to the memory sockets, wherein the face panel is spaced away from the slots and the locator is disposed between an adjacent pair of the memory sockets if the cover is retained by at least one of the latches.
17. A particulate management system for a computer memory module including a plurality of adjacent memory sockets that are each configured to receive a memory card within a slot and to retain the memory card via a latch, the system comprising:
a cover to cover the slots and to be retained by at least one of the latches, the cover including (i) a face panel and (ii) a plurality of members, depending from the face panel, to be supportable on the computer memory module and to direct air underneath the cover, wherein the face panel is spaced away from the slots and each of the plurality of members is disposed between an adjacent pair of the memory sockets if the cover is retained by at least one of the latches.
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The invention relates to computer memory socket particulate management systems and methods.
Computer memory modules are well known in the art. U.S. Pat. No. 6,347,039 to Lee is an example of a computer memory module. Lee provides a memory module that includes a plurality of semiconductor memory devices mounted on a printed wiring board (PWB). The memory module also includes longitudinal contact terminals for connecting to a computer mother board arranged along at least one longitudinal edge of the PWB and transverse contact terminals for connecting to the computer mother board arranged along at least one transverse edge of the PWB. A socket for the module includes at least one longitudinal part into which the longitudinal contact terminals are inserted and at least one transverse part into which the transverse contact terminals are inserted. Each transverse socket part can be mounted on a pivot attached to the longitudinal part and rotated to engage a PWB inserted in the longitudinal part. Alternatively, each transverse part can be a flexible circuit carrier.
U.S. Pat. Pub. 2003/0090879 to Doblar et al. is another example of a computer memory module. Doblar et al. provides a memory module for expanding memory of a computer. The memory module comprises a printed circuit board including a connector edge having a plurality of contact pads configured to convey data signals, power and ground to and from the printed circuit board. The power and ground contact pads alternate along the connector edge with no more than four adjacent data signal contact pads without intervening power or ground contact pads. A plurality of memory devices are mounted on the printed circuit board. A clock driver is coupled to each of the plurality of memory devices and is configured to receive a differential clock signal and to produce at least one single-ended clock signal for clocking the plurality of memory devices. The clock driver includes a phase-locked loop for phase-locking the at least one single-ended clock signal.
A computer memory module includes a plurality of adjacent memory sockets. Each of the memory sockets is configured to receive a memory card within a slot and to retain the memory card via a latch. A particulate management system for the memory sockets includes a cover to cover the slots. The cover is configured to be retained by at least one of the latches.
A cover for a plurality of computer memory sockets, each having a memory card slot and a memory card latch, includes a panel portion to cover the memory card slots and a ledge portion to be retained by one of the memory card latches.
A method for managing dust and debris within a computer memory module includes providing a plurality of computer memory sockets that are each configured to receive a memory card within a slot and to retain the memory card via a latch. The method also includes positioning a cover over the plurality of computer memory sockets such that at least one of the latches retains the cover relative to the plurality of computer memory sockets.
While exemplary embodiments in accordance with the invention are illustrated and disclosed, such disclosure should not be construed to limit the claims. It is anticipated that various modifications and alternative designs may be made without departing from the scope of the invention.
Referring to
The computer memory module 10 of
In the exemplary computer memory module illustrated in
Referring to
The memory socket 14 illustrated in
A fan (not shown) for moving air over the computer memory module 10 (
Referring to
Referring to
This technique has not proven beneficial as the mock memory cards 30 may cause electrical contact degradation because of contact with the electrical contacts (not shown) within the slots 24. Additionally, it may be time consuming and tedious to install (or remove), for example, twenty mock memory cards 30 into respective memory sockets 14.
Referring to
Any suitable manufacturing technique may be used to make the memory socket cover 32. As an example, the memory socket cover 32 may be made via injection molding of ABS plastic. As another example, the memory socket 32 may be machined from a solid piece of plastic.
In at least certain embodiments, the height, H, of the memory socket cover 32 is approximately the same as the height, h, of the mock memory card 30 (
Referring to
Fewer tabs 36 may be spaced apart to form fewer gaps in other examples. As an example, one tab 36 may be located approximately half way between the end portions 38. Two gaps are thus formed. As another example, three tabs 36 may be evenly spaced apart to form four gaps. In still other examples, the tabs 36 may be absent to, for example, promote the desired air flow over the memory sockets 14. Other configurations and arrangements are also possible.
Referring to
In at least the illustrated embodiment, the end portions 38 rest on respective faces 25 of a pair of end memory sockets 14 (
Referring to
Members 46 extend generally perpendicular away from the panel portion 34 and span between respective pairs of tabs 36. The members 46 provide support for the panel portion 34 and the tabs 36. When the memory socket cover 32 is installed, at least a portion of the bottom of some of the members 46 rests on the PCB 12 (
Locators 48 extend generally perpendicularly away from the panel portion 34 and locate the memory socket cover 32 relative to the memory sockets 14 by resting between an adjacent pair of memory sockets 14 (
Referring to
The memory socket cover 32 has a length sufficient to cover the slots 24 of twenty adjacent memory sockets 14. In other examples, the memory socket cover 32 may have a length sufficient to cover one, four or any number of slots 24 of adjacent memory sockets 14.
Referring to
The end portions 138 extend past respective faces (not shown) of a pair of end memory sockets 114. Other configurations are also possible. As an example, the end portions 138 may not extend past respective faces of the pair of end memory sockets 114 to promote desired airflow over the memory sockets 114. As another example, the end portions 138 may extend such that they rest on PCB 112 to support the panel portion 134.
While embodiments of the invention have been illustrated and described, it is not intended that these embodiments illustrate and describe all possible forms of the invention. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the invention.
Gelfond, Yefim, Dayal, Gurpreet S.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Nov 27 2007 | GELFOND, YEFIM | Sun Microsystems, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020175 | /0772 | |
Nov 27 2007 | DAYAL, GURPREET S | Sun Microsystems, Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020175 | /0772 | |
Nov 29 2007 | Oracle America, Inc. | (assignment on the face of the patent) | / | |||
Feb 12 2010 | ORACLE USA, INC | Oracle America, Inc | MERGER AND CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 037306 | /0556 | |
Feb 12 2010 | Sun Microsystems, Inc | Oracle America, Inc | MERGER AND CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 037306 | /0556 | |
Feb 12 2010 | Oracle America, Inc | Oracle America, Inc | MERGER AND CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 037306 | /0556 |
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